function RadarChart(id, data, options) {
  var cfg = {
    w: 600, //Width of the circle
    h: 600, //Height of the circle
    margin: {
      top: 20,
      right: 20,
      bottom: 20,
      left: 20
    }, //The margins of the SVG
    levels: 3, //How many levels or inner circles should there be drawn
    maxValue: 0, //What is the value that the biggest circle will represent
    labelFactor: 1.25, //How much farther than the radius of the outer circle should the labels be placed
    wrapWidth: 60, //The number of pixels after which a label needs to be given a new line
    opacityArea: 0.35, //The opacity of the area of the blob
    dotRadius: 4, //The size of the colored circles of each blog
    opacityCircles: 0.1, //The opacity of the circles of each blob
    strokeWidth: 2, //The width of the stroke around each blob
    roundStrokes: false, //If true the area and stroke will follow a round path (cardinal-closed)
    color: d3.scale.category10() //Color function
  };

  //Put all of the options into a variable called cfg
  if ('undefined' !== typeof options) {
    for (var i in options) {
      if ('undefined' !== typeof options[i]) {
        cfg[i] = options[i];
      }
    } //for i
  } //if

  //If the supplied maxValue is smaller than the actual one, replace by the max in the data
  var maxValue = Math.max(cfg.maxValue, d3.max(data, function (i) {
    return d3.max(i.map(function (o) {
      return o.value;
    }))
  }));

  var allAxis = (data[0].map(function (i, j) {
      return i.axis
    })), //Names of each axis
    total = allAxis.length, //The number of different axes
    radius = Math.min(cfg.w / 2, cfg.h / 2), //Radius of the outermost circle
    Format = d3.format('%'), //Percentage formatting
    angleSlice = Math.PI * 2 / total; //The width in radians of each "slice"

  //Scale for the radius
  var rScale = d3.scale.linear()
    .range([0, radius])
    .domain([0, maxValue]);

  /////////////////////////////////////////////////////////
  //////////// Create the container SVG and g /////////////
  /////////////////////////////////////////////////////////

  //Remove whatever chart with the same id/class was present before
  d3.select(id).select("svg").remove();

  //Initiate the radar chart SVG
  var svg = d3.select(id).append("svg")
    .attr("width", cfg.w + cfg.margin.left + cfg.margin.right)
    .attr("height", cfg.h + cfg.margin.top + cfg.margin.bottom)
    .attr("class", "radar" + id);
  //Append a g element		
  var g = svg.append("g")
    .attr("transform", "translate(" + (cfg.w / 2 + cfg.margin.left) + "," + (cfg.h / 2 + cfg.margin.top) + ")");

  /////////////////////////////////////////////////////////
  ////////// Glow filter for some extra pizzazz ///////////
  /////////////////////////////////////////////////////////

  //Filter for the outside glow
  var filter = g.append('defs').append('filter').attr('id', 'glow'),
    feGaussianBlur = filter.append('feGaussianBlur').attr('stdDeviation', '2.5').attr('result', 'coloredBlur'),
    feMerge = filter.append('feMerge'),
    feMergeNode_1 = feMerge.append('feMergeNode').attr('in', 'coloredBlur'),
    feMergeNode_2 = feMerge.append('feMergeNode').attr('in', 'SourceGraphic');

  /////////////////////////////////////////////////////////
  /////////////// Draw the Circular grid //////////////////
  /////////////////////////////////////////////////////////

  //Wrapper for the grid & axes
  var axisGrid = g.append("g").attr("class", "axisWrapper");

  //Draw the background circles
  axisGrid.selectAll(".levels")
    .data(d3.range(1, (cfg.levels + 1)).reverse())
    .enter()
    .append("circle")
    .attr("class", "gridCircle")
    .attr("r", function (d, i) {
      return radius / cfg.levels * d;
    })
    .style("fill", "#CDCDCD")
    .style("stroke", "#CDCDCD")
    .style("fill-opacity", cfg.opacityCircles)
    .style("filter", "url(#glow)");

  //Text indicating at what % each level is
  axisGrid.selectAll(".axisLabel")
    .data(d3.range(1, (cfg.levels + 1)).reverse())
    .enter().append("text")
    .attr("class", "axisLabel")
    .attr("x", 4)
    .attr("y", function (d) {
      return -d * radius / cfg.levels;
    })
    .attr("dy", "0.4em")
    .style("font-size", "10px")
    .attr("fill", "#737373")
    .text(function (d, i) {
      return Format(maxValue * d / cfg.levels);
    });

  /////////////////////////////////////////////////////////
  //////////////////// Draw the axes //////////////////////
  /////////////////////////////////////////////////////////

  //Create the straight lines radiating outward from the center
  var axis = axisGrid.selectAll(".axis")
    .data(allAxis)
    .enter()
    .append("g")
    .attr("class", "axis");
  //Append the lines
  axis.append("line")
    .attr("x1", 0)
    .attr("y1", 0)
    .attr("x2", function (d, i) {
      return rScale(maxValue * 1.1) * Math.cos(angleSlice * i - Math.PI / 2);
    })
    .attr("y2", function (d, i) {
      return rScale(maxValue * 1.1) * Math.sin(angleSlice * i - Math.PI / 2);
    })
    .attr("class", "line")
    .style("stroke", "white")
    .style("stroke-width", "2px");

  //Append the labels at each axis
  axis.append("text")
    .attr("class", "legend")
    .style("font-size", "11px")
    .attr("text-anchor", "middle")
    .attr("dy", "0.35em")
    .attr("x", function (d, i) {
      return rScale(maxValue * cfg.labelFactor) * Math.cos(angleSlice * i - Math.PI / 2);
    })
    .attr("y", function (d, i) {
      return rScale(maxValue * cfg.labelFactor) * Math.sin(angleSlice * i - Math.PI / 2);
    })
    .text(function (d) {
      return d
    })
    .call(wrap, cfg.wrapWidth);

  /////////////////////////////////////////////////////////
  ///////////// Draw the radar chart blobs ////////////////
  /////////////////////////////////////////////////////////

  //The radial line function
  var radarLine = d3.svg.line.radial()
    .interpolate("linear-closed")
    .radius(function (d) {
      return rScale(d.value);
    })
    .angle(function (d, i) {
      return i * angleSlice;
    });

  if (cfg.roundStrokes) {
    radarLine.interpolate("cardinal-closed");
  }

  //Create a wrapper for the blobs	
  var blobWrapper = g.selectAll(".radarWrapper")
    .data(data)
    .enter().append("g")
    .attr("class", "radarWrapper");

  //Append the backgrounds	
  blobWrapper
    .append("path")
    .attr("class", "radarArea")
    .attr("d", function (d, i) {
      return radarLine(d);
    })
    .style("fill", function (d, i) {
      return cfg.color(i);
    })
    .style("fill-opacity", cfg.opacityArea)
    .on('mouseover', function (d, i) {
      //Dim all blobs
      d3.selectAll(".radarArea")
        .transition().duration(200)
        .style("fill-opacity", 0.1);
      //Bring back the hovered over blob
      d3.select(this)
        .transition().duration(200)
        .style("fill-opacity", 0.7);
    })
    .on('mouseout', function () {
      //Bring back all blobs
      d3.selectAll(".radarArea")
        .transition().duration(200)
        .style("fill-opacity", cfg.opacityArea);
    });

  //Create the outlines	
  blobWrapper.append("path")
    .attr("class", "radarStroke")
    .attr("d", function (d, i) {
      return radarLine(d);
    })
    .style("stroke-width", cfg.strokeWidth + "px")
    .style("stroke", function (d, i) {
      return cfg.color(i);
    })
    .style("fill", "none")
    .style("filter", "url(#glow)");

  //Append the circles
  blobWrapper.selectAll(".radarCircle")
    .data(function (d, i) {
      return d;
    })
    .enter().append("circle")
    .attr("class", "radarCircle")
    .attr("r", cfg.dotRadius)
    .attr("cx", function (d, i) {
      return rScale(d.value) * Math.cos(angleSlice * i - Math.PI / 2);
    })
    .attr("cy", function (d, i) {
      return rScale(d.value) * Math.sin(angleSlice * i - Math.PI / 2);
    })
    .style("fill", function (d, i, j) {
      return cfg.color(j);
    })
    .style("fill-opacity", 0.8);

  /////////////////////////////////////////////////////////
  //////// Append invisible circles for tooltip ///////////
  /////////////////////////////////////////////////////////

  //Wrapper for the invisible circles on top
  var blobCircleWrapper = g.selectAll(".radarCircleWrapper")
    .data(data)
    .enter().append("g")
    .attr("class", "radarCircleWrapper");

  //Append a set of invisible circles on top for the mouseover pop-up
  blobCircleWrapper.selectAll(".radarInvisibleCircle")
    .data(function (d, i) {
      return d;
    })
    .enter().append("circle")
    .attr("class", "radarInvisibleCircle")
    .attr("r", cfg.dotRadius * 1.5)
    .attr("cx", function (d, i) {
      return rScale(d.value) * Math.cos(angleSlice * i - Math.PI / 2);
    })
    .attr("cy", function (d, i) {
      return rScale(d.value) * Math.sin(angleSlice * i - Math.PI / 2);
    })
    .style("fill", "none")
    .style("pointer-events", "all")
    .on("mouseover", function (d, i) {
      newX = parseFloat(d3.select(this).attr('cx')) - 10;
      newY = parseFloat(d3.select(this).attr('cy')) - 10;

      tooltip
        .attr('x', newX)
        .attr('y', newY)
        .text(Format(d.value))
        .transition().duration(200)
        .style('opacity', 1);
    })
    .on("mouseout", function () {
      tooltip.transition().duration(200)
        .style("opacity", 0);
    });

  //Set up the small tooltip for when you hover over a circle
  var tooltip = g.append("text")
    .attr("class", "tooltip")
    .style("opacity", 0);

  /////////////////////////////////////////////////////////
  /////////////////// Helper Function /////////////////////
  /////////////////////////////////////////////////////////

  //Taken from http://bl.ocks.org/mbostock/7555321
  //Wraps SVG text	
  function wrap(text, width) {
    text.each(function () {
      var text = d3.select(this),
        words = text.text().split(/\s+/).reverse(),
        word,
        line = [],
        lineNumber = 0,
        lineHeight = 1.4, // ems
        y = text.attr("y"),
        x = text.attr("x"),
        dy = parseFloat(text.attr("dy")),
        tspan = text.text(null).append("tspan").attr("x", x).attr("y", y).attr("dy", dy + "em");

      while (word = words.pop()) {
        line.push(word);
        tspan.text(line.join(" "));
        if (tspan.node().getComputedTextLength() > width) {
          line.pop();
          tspan.text(line.join(" "));
          line = [word];
          tspan = text.append("tspan").attr("x", x).attr("y", y).attr("dy", ++lineNumber * lineHeight + dy + "em").text(word);
        }
      }
    });
  } //wrap	

} //RadarChart